Characterization of Clostridium Baratii Type F Strains Responsible for an Outbreak of Botulism Linked to Beef Meat Consumption in France

HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L’archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d’enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.


Introduction:
A second botulism outbreak due to Clostridium baratii occurred in France in August 2015 and included three patients who had their meal in a restaurant the same day.We report the characterization of C. baratii isolates including whole genome sequencing (WGS).
Methods: Four C. baratii isolates collected in August 2015 from the outbreak 2 were analysed for toxin production and typing as well as for genetic characterization.WGS was done using using the NEBNext Ultra DNA Library Prep kit for Illumina (New England Biolabs) and sequenced on MiSeq machine (Illumina) in paired-end reads of 250 bases.The phylogenetic tree was generated based on the UPGMA method with genetic distances computed by using the Kimura two-parameter model.Evolutionary analyses were conducted in Bionumerics (V.6.6 Applied Maths).
Results: Three C. baratii isolates for patient's stools and one isolate from meat produced botulinum neurotoxin (BoNT) type F and retained a bont/F7 gene in OrfX cluster.All isolates were identical according to the WGS.However, phylogeny of the core genome showed that the four C. baratii strains were distantly related to that of the previous C. baratii outbreak in France in 2014 and from the other C. baratii strains reported in databanks.

Discussion:
The fact that the strains isolated from the patients and meat samples were genetically identical supports that the meat used for the Bolognese sauce was responsible for this second botulism outbreak in France.These isolates were unrelated to that from the first C. baratii outbreak in France in 2014 indicating a distinct source of contamination.WGS provided robust determination of genetic relatedness and information regarding BoNT typing and toxin gene locus genomic localization.This work was supported by Institut Pasteur and Institut national de Veille Sanitaire.
Botulism is a rare but severe neurological disorder characterized by a flaccid paralysis that, in the most severe forms, leads to respiratory failure.The disease is due to botulinum neurotoxins (BoNTs) which are produced by diverse anaerobic spore-forming bacteria from the genus Clostridium including Clostridium botulinum (groups I to III), Clostridium argentinense, Clostridium baratii, and Clostridium butyricum .Food-borne botulism is the main form of botulism in France.Between 20 and 40 cases of human botulism are reported every year.Homemade ham or ham processed by small-scale enterprises is the most frequent source of human type B botulism in France .However, since 2005 an increased number of other types of botulism such as type A were observed due to changes in food habits, as well as in food production and distribution including increased development of commercial minimally-heated, chilled foods, and imported products .France and the genetic relationship between strains of the two French outbreaks based on core genome analysis.

Ethics Statement
All experiments were performed in accordance with the French and European Community guidelines for laboratory animal handling (agreement of laboratory animal use n° 2013-0116/02026.02and n°2013-0117/02025.02).

Toxin Detection
Toxin detection and titration in biological samples or in culture supernatants were performed by the mouse bioassay with specific neutralizing antibodies from the National Reference Centre (NRC) of Anaerobic bacteria and Botulism (Institut Pasteur, Paris) and/or National Institute for Biological Standards and Control (London, UK).Neutralizing polyclonal antibodies were prepared at the NRC by immunization of rabbits with recombinant half C-terminal of BoNT heavy chain (Hc domain) (3 to 5 subcutaneous injections of 400 µg Hc in 1 ml PBS with 1 ml Freund adjuvant) (data not shown).One ml of patient's serum or half ml of ten-fold serial dilutions of stool or food samples in 50 mM phosphate buffer (pH 6.5) containing 1% gelatin were injected intraperitoneally into Swiss mice weighing 20-22 g (Charles River).

Cultures
Enrichment cultures of stool or food samples were performed in fortified cooked meat medium (FCMM, Difco) at 37°C in anaerobic conditions and C. baratii was isolated on sheep blood FCMM agar as previously described .Stool and food samples were not heat or ethanol treated prior to enrichment cultures.The strains were grown in TGY (Trypticase, yeast extract, glucose) .

DNA Preparation, PCR detection
DNA extraction from stool samples was performed with either QIAamp DNA Stool kit (Qiagen) for stool specimens or Power Food microbial DNA extraction kit (MO BIO Laboratories) for food samples according to the manufacturer's recommendations.Detection of C. botulinum in biological samples was performed by SYBR-green real-time PCR with specific primers as previously described .A pair of primers was designed to cover bont/F1 and bont/F7 genes (P2308 /P2309).These primers were selected using Primer3 program (v.0.4.0) in a conserved sequence of BoNT / F1 and F7 (préciser les positions?).To provide evidence that thesis newly designed primers were specific to bont/F1 and / F7 genes, PCR was performed with the DNA of the strain NCTC10281 (bont / F1) and ATCC43756 (bont / F7).The presence of the amplification product was confirmed on agarose gel.The sequencing of the amplification products (Eurofins / MWG) confirmed the specificity of the primers (data not shown) .
Total DNA was isolated from C. baratii strains as described .

Whole genome sequencing
WGS libraries were performed using the NEBNext Ultra DNA Library Prep kit for Illumina (New England Biolabs) and sequenced on MiSeq machine (Illumina) in paired-end reads of 250 bases.Sequence files were generated using Illumina Analysis Pipeline version 1.8 (CASAVA).After quality filtering, reads were assembled using CLC software version 4 (CLC Bio).

Bioinformatic analyses
16s rRNA gene analyses were performed by BlastN.Dendograms representing the phylogenetic relatedness of BoNT/F7 nucleotide sequences and deduced proteins were constructed using the UPGMA method.The genetic distances were computed by using the Kimura two-parameter model.Evolutionary analyses were conducted in Bionumerics (V.6.6 Applied Maths) To compare the genomic environment of BoNT/F7 toxin clusters, the sequence between the AraC family transcriptional regulator and ABC transporter substrate-binding protein genes of C. baratii strain Sullivan was aligned with contigs carrying the BoNT/F7 operon of strains 796-15 and 771-14 using BlastN, and compared using Artemis Comparison Tool .
Maximum likelihood phylogenetic tree of seven C. baratii isolates was inferred from 2.51M recombination-purged aligned characters belonging to the core-genome induced by this taxonomic sampling.

Case report
In August 2015, an outbreak of botulism including three persons who had their meal on the same day at the same restaurant occurred in a city of the South of France .The three patients developed a severe botulism including quadriplegia and respiratory failure.They were hospitalized and required mechanical ventilation .The common food eaten by the three patients was pasta with Bolognese sauce which had been prepared one or two days before it was served.No leftover of the Bolognese sauce was available for investigation, but frozen and defrosted ground meat samples from the batch which had been used to prepare the sauce and which were stored in the restaurant at -20°C and +4°C, respectively, were collected.

Botulinum toxin detection in biological and food samples
Evidence for toxicity in serum samples of the three patients was provided by using the mouse bioassay (Table 1).The mice developed the characteristic signs of botulism, but the toxicity was not neutralized with specific antibodies against botulinum toxin (BoNT) from C. botulinum type A, B, or E. BoNT was detected at 40 and 2,000 MLD (mouse lethal doses)/g in the stools of two patients, respectively (Table 1), and BoNT/F gene was identified.Among 21 samples of food at risk of botulism, C. baratii was identified and isolated from the meat samples stored in the restaurant either frozen at -20°C or defrosted and preserved in refrigerator (Table 1).However, BoNT was not detected in the meat samples.

C. baratii isolation and strain characterization
Four C. baratii F strains were isolated from stool and meat samples (Table 1).They showed the same morphological (Fig. 1) and bacteriological properties as well as antibiotic resistance profile (data not shown) as the two strains isolated in the previous C. baratii outbreak in France (outbreak 1) .All the strains grown in TGY medium produced BoNT as assayed in mouse test which was partially neutralized by anti-C.botulinum F serum, and to a lower extent by anti-E and not by anti-A or anti-B serum (Table 1).
Table 1: Botulinum toxin (BoNT) and C. baratii investigation in biological and meat samples.a Toxicity in serum samples was not neutralized by anti-A, -B, and -E sera.Neutralization with anti-F was not tested due to insufficient sample volumes.b BoNT typing was performed by neutralization test with 0.5 ml of stool dilution containing 4 to 8 MLD (mouse lethal dose) and mixed with 50 µl of anti sera containing 0.25 international units (IU).No neutralization was obtained with anti-A, -B, and -E sera, and a partial neutralization (mouse death delayed of 24-48 h compared to control mice injected with samples without C. botulinum antisera) was observed with anti-F serum raised against C. botulinum F toxoid (50 µl antiserum containing 0.25 IU).c BoNT 1 MLD indicates that mice injected with 1 ml patient's serum developed characteristic botulism symptoms but did not die within 4 days of observation.d BoNT/F was identified in the FCMM enrichment culture.MLD, mouse lethal dose.Whole genome sequencing (WGS) of the four strains (693-15, 694-15, 695-15 and 796-15) of this outbreak was performed.The BlastN analysis of DNA sequences confirmed that 16S rRNA genes of the four isolated strains were 99% related to that of C. baratii/C.sardiniensis in databank, and showed the presence of only one bont/F7 locus associated with orfX genes.

Patient/Food
A comparison of bont/F7 nucleotide and deduced protein sequences encoded by strains isolated from the outbreaks 1 and 2 in France completed with those available in public databases confirmed a high degree of homogeneity (at least 99% identity) of this neurotoxin (Figure 2).However, the subtype F7 is the most divergent compared to other F subtypes .BoNT/F7 encoded by the four strains of outbreak 2 were identical to each other and differed by 0.6% (7 amino acid substitutions) from that of the 771-14 strain from the outbreak 1 , suggesting that the strains from the two outbreaks were different.Very interestingly, bont/F7 of 771-14 strain is 100% identical to that of the strain CDC 51267 isolated from deer meat associated with a botulism outbreak in Thailand in 2006 while all the 6 C.baratii strains isolated from individual botulism cases in USA between 1980 and 2007 encode the same BoNT/F7 sequence distinct from those of the strains of other countries (Fig. 2).All BoNT/F7 retain amino acids which are critical for their activity.Notably W312 and Y314 which are essential in the binding to the substrate, synaptobrevin2 are conserved in the C. baratii isolates from France as well as in C. baratii reference strains (Fig. 2).This suggests that the C. baratii strains including the French isolates share the same substrate specificity.

Flanking regions of BoNT/F7 cluster
It was previously shown that the bont/F7 cluster is flanked by two IS1182 copies .The genomic environment of the bont/F7 cluster was analyzed by comparing the flanking regions from AraC family transcriptional regulator to ABC transporter substrate-binding protein of C. baratii Sullivan with the contig carrying the bont/F7 operon of strains 796-15 and 771-14 (Figure 3).The ca. 20 kb regions were aligned using BlastN and compared using Artemis Comparison Tool 19.Interestingly, the bont/F7 cluster and flanking parts of the strain 796-15 (outbreak 2) were almost identical to that of strain Sullivan (99% identity), at least between the two intact direct repeats of IS1182.Upstream of the orfX3 gene, we found almost the same UviA-like putative sigma factor operon (99.6% and 100 % nucleic acid identity with uviA and uviB, respectively) as that described for the strain IBCA03-0045 .In strain 771-14 (outbreak 1), the BoNT/F7 cluster was also almost identical to those of strains Sullivan and 796-15 (99% identity) but the insertion sequences IS256 and IS1380 instead of IS1182 lied downstream (Fig. 3).In addition, the flanking genes downstream from the bont/F7 cluster showed significant homology with DNA modifying genes such as topoisomerase from the Clostridium perfringens plasmid pCP-TS1 .This suggests different integration events and that the C. baratii strains from the two outbreaks in France are different strains.

C. baratii core genomes
To further investigate the genetic relationship between these two strains, we constructed a core genome SNP phylogeny.The initial five sets of contigs (strains 771-14, 693-15, 694-15, 695-15 and 796-15) were compared with two other publicly available C. baratii genome sequences, i.e. strains XCM (NCBI accn.LGRR00000000) and Sullivan (NCBI accn.CP006905).These seven sets of genomesequences were processed with the Harvest suite in order to infer acore-genome purged from any region having undergone likely horizontal evolutionary events (e.g.homologous recombination), leading to 2.51M aligned nucleotide characters.A phylogenetic tree was inferred from these aligned characters by PhyML with evolutionary model GTR+G4+I (Figure 4).The core genomes confirm that the four strains from outbreak 2, isolated from patients samples (693-15, 694-15 and 695-15) and beef meat sample (796-15) were identical to each other and distantly related to the strain 771-14 from outbreak 1, as well as to the other C. baratii strains, Sullivan from the U.S., and XCM from China.The C. baratii strain 771-14 seemed to be more related to the Chinese strain isolated from soil in 2014.Interestingly, we did not find bont/F7 gene sequence on the contigs of the XCM strain suggesting that this C. baratii strain could have lost or never acquired this locus while the orfX-bont/F7 locus is possibly located on a plasmid in strain 771-14 . .C. baratii was also recognized as responsible for botulism in adults .However, food borne botulism outbreaks linked to C. baratii type F are rare, approximately 1.1 % of the botulism cases in the U.S. from 1981 to 2011 .Most of the food borne botulism outbreaks linked to C. baratii F were reported in the U.S. One C. baratii outbreak was described in 5 adults in Spain in 2011 .The first botulism outbreak due to C. baratii F identified in France was in November 2014 and includied a very severe case and a mild form of botulism .The second outbreak involved three persons who had their meal on the same day and in a same restaurant .Most of botulism cases in adults associated with C. baratii were attributed to botulism by intestinal colonization .Based on a short duration from consumption of the suspected food to symptom onset in the three patients (duration mean, 32 h) , the botulism form in the outbreak 2 is more likely a food-borne botulism than botulism by intestinal colonization.
The four C. baratii strains of the outbreak 2 were identical at the genetic level and were distantly related to the other C. baratii strains from the outbreak 1 in France and from those isolated in the U.S. and China indicating a distinct origin of the corresponding outbreaks (Fig. 4).The genetic diversity of C. baratii is still poorly understood since a limited number of strains has been sequenced and analysed until now.The bont/F7 locus shows genetic variations albeit to a lower extent than the whole genome (Fig. 2 and 4).Interestingly, the four C. baratii strains from the outbreak 2 retain conserved bont/F7 loci including the flanking IS1182 identical to that of the Sullivan strain, whereas the strain 771-14 from outbreak 1 shows a variant bont/F7 locus with distinct flanking regions (Fig. 3).However, the core genome of the four C. baratii strains of outbreak 2 is more divergent than that of 771-14 compared to the Sullivan strain (Fig. 4).This further supports horizontal bont/F7 gene locus transfer between strains with different genetic background.The bont/F7 locus insertion site in the chromosome is similar in 796-15 and Sullivan strains, whereas in strain 771-14 the botulinum locus has a distinct location, likely on plasmid (Fig. 3).The previously characterized bivalent strains Af and Bf also argue for horizontal gene transfer of the bont/F locus mediated by plasmids and recombination events in various C. botulinum strains, and probably between C. botulinum and C. baratii .
The contamination origin of the botulism outbreaks caused by C. baratii type F remains largely unknown.C. baratii F and BoNT/F were identified in a spaghetti sauce meat preparation responsible for a botulism outbreak in the U.S. in 2001 .A meat pit pie was suspected to be involved in the Spanish C. baratii outbreak, but no leftover was available for analysis .In the other outbreaks of C. baratii botulism including that identified in France in 2014, all the food samples which were investigated, were negative for the detection of C. baratii and/or BoNT/F .In the outbreak reported here, C. baratii was identified in two meat samples from the batch which had been used for the Bolognese sauce preparation, but they did not contain detectable BoNT level (Table 1).The Bolognese sauce was prepared at least 24 h in advance and was left several hours at room temperature during the hot summer period, thus constituting favourable conditions for C. baratii growth and toxin production.No leftover of the Bolognese sauce was available for analysis, but it was the likely source of contamination.Indeed, the fact that the strains isolated from the patients and meat samples were genetically identical supports that the meat used for the Bolognese sauce was responsible for this botulism outbreak.The minced beef was prepared in large batches and stored at -20°C by an industrial company.C. baratii was not detected in 26 frozen meat samples from the company which were related to the batch used by the restaurant.

Fig 3 .
Fig 3. Genomic environment of BoNT/F7 toxin clusterThe sequence between the AraC family transcriptional regulator and ABC transporter substrate-binding protein genes of C. baratii strain Sullivan was aligned with contigs carrying the BoNT/F7 operon of strains 796-15 and 771-14.The conserved regions (≥ 99% identity) are indicated in red.

Fig 4 .
Fig 4. Phylogenetic tree of seven C. baratii isolates.Scale bar represents 0.005 nucleotide substitutions per character.Confidence supports at branches were estimated by a bootstrap procedure (500 replicates).Rooting was performed by using the genome sequence of C. perfringens strain SM101 as an outgroup (not shown).
Type F botulism was first reported in Denmark in 1958 and was due to a homemade liver paste contaminated with a novel C. botulinum type called type F .Most cases of human botulism are caused by BoNT types A, B or E, and more rarely by type F. For example, botulism type F represented 1% of botulism cases in the US within the period 1981-2002 .In 1980, BoNT/F was recognized to be produced not only by C. botulinum but also by a distinct Clostridium species called C. baratii .Since this period, C. baratii is the most frequent cause of type F botulism.In the US from 1981 to 2002, C. baratii was isolated from 9 of the 13 cases of type F botulism, and C. botulinum F was not detected in any 7. C. baratii type F (referred to as F7) is mainly involved in infant botulism and in adults with botulism by intestinal colonization .Only a few type F food borne botulism outbreaks were reported .Here, we report the characterization of C. baratii strains from the second documented food-borne botulism outbreak in The source and mode of